The movement of water in its solid, liquid, and vapor forms, and the changes in phase from one form to another, are responsible for a considerable fraction of the heating and cooling of the atmosphere, which in turn drives the winds and affects the climate at each location on the Earth. The movement and transformations of water substance around the Earth are referred to as the "water cycle."

Climate models are unable to represent all of the physical laws governing the behavior of the atmosphere, oceans, and land surfaces at the level of detail necessary to describe them exactly. Many physical processes must be approximated using simplified, parameterized equations. The values of the parameters can sometimes be determined from the basic physical laws or estimated from analysis of field experiments, but not infrequently they must be adjusted based on comparisons of the climate model behavior with analyses of observational data. Some of the most important and yet most difficult of processes to represent involve precipitation.

The global water cycle is a major focus area of the U. S. Global Change Research Program (USGCRP), which together with the Climate Change Research Initiative (CCRI) constitutes the U. S. Climate Change Science Program (CCSP).

Scientists in the Climate and Radiation Branch are engaged in:

analyzing satellite and ground-based data to extract information about the water cycle and how it affects the climate; and

representing these processes in climate models and evaluating their impact on model behavior, in order to increase our understanding of how the climate system works.

Contact: Thomas Bell

Prabhakara, C., R. Iacovazzi, J.-M. Yoo, K.-M. Kim, and T. L. Bell, 2008: A method to estimate rain rate over tropical oceans with TRMM Microwave Imager radiometer. J. Meteor. Soc. Japan, 86(1), 203-212. Bell, T. L., D. Rosenfeld, K.-M. Kim, J.-M. Yoo, M.-I. Lee, and M. Hahnenberger, 2008: Midweek increase in U.S. summer rain and storm heights suggests air pollution invigorates rainstorms. J. Geophys. Res., 113, D02209, doi:10.1029/2007JD008623. [Abstract] [Full Text (PDF)] Koster, R. D., T. L. Bell, R. Reichle, M. J. Suarez, and S. D. Schubert, 2008: Using observed spatial correlation structures to increase the skill of subseasonal forecasts. Mon. Weather Rev., 136(6), 1923-1939. [Abstract] [Full Text (PDF)] Bell, T. L., and D. Rosenfeld, 2008: Comment on “Weekly precipitation cycles? Lack of evidence from United States surface stations” by D. M. Schultz et al.. Geophys. Res. Lett., 35, L09803, doi:10.1029/2007GL033046. [Abstract] [Full Text (PDF)] King, M. D., 2008: The Earth’s changing environment as seen from the vantage point of space. The Planetary Report, 28, 6-11. [Abstract] [Full Text (PDF)] View All Rainfall Publications
Thomas Bell Prabhakara Cuddapah Prasun Kundu Yogesh Sud Maura Tokay Eric Wilcox Yaping Zhou	Earth Observatory TRMM/GPM